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Carbon atoms are joined to one or more metal atoms to form the diverse group of chemicals known as carbides. These substances are essential in numerous industrial applications due to their extraordinary hardness and high melting points. Due to its exceptional hardness and wear resistance, tungsten carbide (WC), one of the most well-known carbides, is frequently used in cutting tools, drills, and abrasives. Another notable example is silicon carbide (SiC), which is used in semiconductors, automotive components, and abrasive materials due to its outstanding heat conductivity and electrical characteristics. Covalent and interstitial carbides can be broadly divided into two groups. Covalent bonds between carbon atoms and atoms from elements like silicon or boron result in the formation of covalent carbides, such as silicon and boron carbides. These carbides have remarkable mechanical characteristics and strong, directed chemical connections. Contrarily, interstitial carbides, including cemented carbides like tungsten carbide, entail the placement of carbon atoms in interstitial locations within the crystal lattice of metals, resulting in the creation of materials that are incredibly hard and wear-resistant. Carbides are essential in the field of metallurgy for fortifying steel alloys. When carbon is added to steel, cementite (iron carbide, Fe3C), which increases the material's hardness and wear resistance. High-strength steel is produced with this procedure, and it is employed in aerospace, automobile manufacturing, and construction. Carbides play a crucial role in the creation of superalloys, which are used in gas turbines and jet engines because of their resilience to high temperatures and mechanical stresses. Additionally, carbides are used in fields other than industry. They are used to make high-power electronic components and semiconductor devices, among other cutting-edge technologies. For its unique qualities that allow for the creation of more effective and compact electronic equipment, silicon carbide is particularly admired in the electronics industry. In conclusion, carbides are a group of metal-carbon bonded compounds that have excellent hardness, high melting points, and a wide range of uses in manufacturing, metallurgy, electronics, and other fields. Their distinctive qualities continue to spur innovation and make a substantial contribution to the development of contemporary technology and materials research.